R136c

R136c is a star located in R136, a tight knot of stars at the centre of NGC 2070, an open cluster weighing 450,000 solar masses and containing 10,000 stars. At and 3.8 million, it is the one of the most massive stars known and one of the most luminous, along with being one of the hottest, at over $40,000 K$. It was first resolved and named by Feitzinger in 1980, along with R136a and R136b.

Description
R136c is a Wolf–Rayet star of the spectral type WN5h and with a temperature of $42,170 K$, making it one of hottest stars known. It is the one of the most massive stars known, with a mass of, and it is one of the most luminous stars known, with a luminosity of 3.8 million. The extreme luminosity is produced by the CNO fusion process in its highly compressed hot core. Typical of all Wolf–Rayet stars, R136c has been losing mass by means of a strong stellar wind with speeds over $2,000 km/s$ and mass loss rates in excess of $$ solar masses per year. It is strongly suspected to be a binary, due to the detection of hard x-ray emission typical of colliding wind binaries, but the companion is thought to make only a small contribution to the total luminosity.

Evolution
R136c is so energetic that it has already lost a substantial fraction of its initial mass, even though it is only a few million years old. It is still effectively on the main sequence, fusing hydrogen at its core via the CNO cycle, but it has convected and mixed fusion products to the surface and these create a powerful stellar wind and emission spectrum normally only seen in highly evolved stars.

Its fate depends on the amount of mass it loses before its core collapses, but is likely to result in a supernova. The most recent models for single star evolution at near-solar metallicities suggest that the most massive stars explode as highly stripped type Ic supernovae, although different outcomes are possible for binaries. Some of these supernovae are expected to produce a type of gamma-ray burst and the expected remnant is a black hole.